Reliability buffering technique applied to a project planning model
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-017/50
G05B-013/02
G06F-019/00
G06F-009/46
출원번호
US-0068087
(2002-02-06)
등록번호
US-7415393
(2008-08-19)
발명자
/ 주소
Pe��a Mora,Feniosky
Park,Moonseo
Lee,SangHyun
Li,Michael
Fulenwider,Margaret
출원인 / 주소
Massachusetts Institute of Technology
대리인 / 주소
Daly, Crowley, Mofford & Durkee, LLP
인용정보
피인용 횟수 :
3인용 특허 :
42
초록▼
A reliability buffering technique applies a reliability time buffer to a project planning model having activities. The reliability time buffer is placed before an associated downstream activity to provide a buffered downstream activity. The reliability buffer is provided having a time duration value
A reliability buffering technique applies a reliability time buffer to a project planning model having activities. The reliability time buffer is placed before an associated downstream activity to provide a buffered downstream activity. The reliability buffer is provided having a time duration value and an activity time precedence relationship, including a lead or lag value, with at least one upstream activity. The time duration value and the activity time precedence relationship are generated so as to reduce the overall schedule delay resulting from possible time delays that occur in the one or more upstream activities and to increase the overall project schedule advance from possible schedule advances in the one or more upstream activities.
대표청구항▼
What is claimed is: 1. A reliability buffering method associated with a project planning model having project plan data and having a plurality of activities, wherein each one of the plurality of activities has one or more activity time precedence relationships, comprising: adding activity character
What is claimed is: 1. A reliability buffering method associated with a project planning model having project plan data and having a plurality of activities, wherein each one of the plurality of activities has one or more activity time precedence relationships, comprising: adding activity characteristics data to the project plan data; generating a reliability buffer duration value; adding the reliability buffer duration value to the project plan data; and placing a reliability buffer having a time duration determined in accordance with the reliability buffer duration value in front of and associated with a downstream activity. 2. The reliability buffering method of claim 1, further comprising: adding activity relationship data to the project plan data. 3. The reliability buffering method of claim 1, further comprising: altering the one or more activity time precedence relationships. 4. A reliability buffering method associated with a project planning model having project plan data, having a project schedule, and having a plurality of activities, comprising: selecting a downstream activity from among the plurality of activities; adding activity relationship data associated with the downstream activity and with at least one upstream activity to the project plan data; adding activity characteristics data associated with the downstream activity to the project plan data; and placing a reliability buffer in a buffer time precedence relationship with the downstream activity to provide a buffered downstream activity. 5. The reliability buffering method of claim 4, wherein adding activity relationship data comprises: adding a downstream sensitivity value to the project plan data. 6. The reliability buffering method of claim 4, wherein adding activity characteristics data comprises: adding an activity reliability value to the project plan data. 7. The reliability buffering method of claim 4, wherein adding activity characteristics data comprises: adding an activity production rate value to the project plan data. 8. The reliability buffering method of claim 4, wherein the buffer time precedence relationship is finish to start. 9. The reliability buffering method of claim 4, further comprising: generating a reliability buffer duration value associated with the reliability buffer; generating an activity time precedence relationship between the buffered downstream activity and the at least one upstream activity; and adding the reliability buffer duration value and the activity time precedence relationship to the project plan data to provide an initial reliability buffer project plan. 10. The reliability buffering method of claim 9, wherein the activity time precedence relationship is selected from the group consisting of finish to start, finish to finish, start to start, and start to finish. 11. The reliability buffering method of claim 9, wherein generating the reliability buffer duration value comprises: selecting one or more upstream activities associated with the downstream activity from among the plurality of activities; and generating a reliability buffer duration value that reduces a simulated schedule delay to the project schedule that occurs due to simulated schedule delays of respective ones of the one or more upstream activities, and that increases a simulated schedule advance to the project schedule that occurs due to simulated schedule advances of respective ones of the one or more upstream activities. 12. The reliability buffering method of claim 11, wherein generating the reliability buffer duration value comprises: selecting a plurality of reliability buffer duration values; and for each of the plurality of reliability buffer duration values, generating a simulated project schedule and a simulated project cost; and analyzing the simulated project schedules and the simulated project costs associated with the plurality of reliability buffer duration values; and selecting the reliability buffer duration value and the associated project schedule corresponding to a smallest simulated project schedule or associated with a smallest simulated project cost. 13. The reliability buffering method of claim 9, wherein generating the activity time precedence relationship comprises: selecting a time precedence relationship from the group consisting of a finish to start relationship, a finish to finish relationship, a start to finish relationship, and a finish to start relationship; selecting one or more upstream activities associated with the downstream activity from among the plurality of activities; and generating a reliability buffer lead or lag value that reduces a simulated schedule delay to the project schedule that occurs due to simulated schedule delays of respective ones of the one or more upstream activities, and that increases a simulated schedule advance to the project schedule that occurs due to simulated schedule advances of respective ones of the one or more upstream activities. 14. The reliability buffering method of claim 9, further comprising: adding policy data to the project plan data. 15. The reliability buffering method of claim 14, wherein adding policy data comprises: adding at least one of: a manpower availability versus time value; a overtime and flexible headcount control value, a time buffer, a thoroughness of quality control value; a hiring time control value, or a request for information (RFI) time duration value to the project plan data. 16. The reliability buffering method of claim 9, further comprising: updating the project plan data to provide an updated reliability buffer project plan. 17. A project management system comprising: a project data processor to provide project plan data; and a reliability buffer processor adapted to receive the project plan data and to generate a project plan with reliability buffers, each one of the reliability buffers associated with a respective downstream activity. 18. The project management system of claim 17 further including a project plan processor adapted to provide conventional project plan data to the project data processor, and wherein the project data processor is adapted to receive the conventional project plan data and to provide the project plan data.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (42)
Puram Kamala ; Sadagopal Gopal, Consultant matching system and method for selecting candidates from a candidate pool by adjusting skill values.
Myrick D. Crampton ; James L. Roadifer ; Kevin J. Smith ; John K. Willoughby, Manufacturing scheduling process with improved modeling, scheduling and editing capabilities for solving finite capacity planning problems.
Wexelblat Alan D. (Austin TX) Fairchild Kim M. (Austin TX), Method and system for generating dynamic, interactive visual representations of information structures within a computer.
Rassman William R. (Agoura CA) Berman Bradley M. (Omaha NE) Blau Scott (Yonkers NY) Chiang Andrew (Fort Lee NJ), Method and system for scheduling, monitoring and dynamically managing resources.
Sakamoto Shunji (Higashihiroshima JPX) Hoshino Toshihiko (Hiroshima JPX), Method of simulating a sequential control for analyzing a production line in a production system.
Hambrick Geoffrey Martin (Round Rock TX) Rogers Judd Thomas (Austin TX), Project management tool implementing authority for a people oriented work environment tool.
Collins John E. (Hudson WI) Sisley Elizabeth M. (Woodbury MN), System and method for producing schedules of resource requests having uncertain durations.
Wolters ; Jr. Richard Arthur ; Schwee Susan Mae ; Isaacs James Russell,CHX ; Smith Michael Adrian ; Cooley ; Jr. Walter Hening ; Leighty Craig Ernest ; Borst George ; Mayo Paul Lawrence ; Lownes Greg, System for managing multiple projects of similar type using dynamically updated global database.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.